WO2016090677A1 - Liquid crystal display and double-sided adhesive tape therefor - Google Patents

Abstract

Provided is a liquid crystal display (10) and a double-sided adhesive tape therefor (3). The liquid crystal display (10) comprises a liquid crystal panel (2); a backlight unit (5), which comprises a back plate (51), an optical membrane set (52) and a plastic frame (53); a double-sided adhesive tape (3), which comprises a first surface (3a) and a second surface (3b), wherein the first surface is coated with a first adhesive and connected with the liquid crystal panel (2) by the first adhesive, the second surface is coated with a second adhesive and connected with the back plate (51) and the optical membrane set (52) by the second adhesive respectively. The adhesion strength of the first adhesive to the liquid crystal panel (2) is less than the adhesion strength of the second adhesive to the optical membrane set (52). After the backlight unit (5) is separated from the liquid crystal panel (2), the double-sided adhesive tape (3) of the liquid crystal display (10) can stay on the optical membrane set (52) and the plastic frame (53), such that the positional relation of membranes of the optical membrane set (52) is not destroyed, ensuring the normal application of the re-assembled liquid crystal display (10).

Description

Liquid crystal display and double-sided tape for same

Cross-reference to related applications

The present application claims priority to Chinese Patent Application No. CN20141075197 3.9 filed on Dec. 10, 2014, entitled,,,,,,,,,, in.

Technical field

The present invention relates to a liquid crystal display and a double-sided tape therefor.

Background technique

In today's society, liquid crystal displays have become an indispensable component of electronic products such as mobile phones and computers, as well as related mechanical devices. They can transmit certain information to people through display content so that people can know the information in time.

As shown in FIG. 1, the conventional liquid crystal display 100 mainly includes a liquid crystal panel 20 and a double-sided tape 30, and a backlight unit 50 adhered to the liquid crystal panel 20 by a double-sided tape 30. The backlight unit 50 includes a back plate 501, a bezel 503, and an optical film set 502. One surface of the double-sided tape 30 is connected to the liquid crystal panel 20, and the other surface is connected to the bezel 503 and the optical film group 502.

When the liquid crystal display 100 is inspected, it is necessary to apply two outward forces F1 and F2 to the liquid crystal panel 20 and the backlight unit 50 on one side of the liquid crystal display 100, respectively, so that the liquid crystal panel 20 and the backlight unit 50 can be gradually separated. After the liquid crystal panel 20 is separated from the backlight unit 50, the double-sided tape 30 is highly likely to remain on the liquid crystal panel 20, so that the double-sided tape 30 and the optical film group 502 are separated from each other. However, the double-sided tape 30 that is detached from the optical film group 502 breaks the positional relationship between the films in the optical film group 502, so that the optical film group 502 is damaged, and the liquid crystal display after reassembly is not normally used.

Summary of the invention

In order to solve the above problems, an object of the present invention is to provide a liquid crystal display capable of preventing a double-sided tape from remaining on a liquid crystal panel after the backlight unit is separated from the optical film group, thereby not damaging the optical film. The positional relationship between the diaphragms ensures that the liquid crystal display after reassembly can be used normally.

The present invention provides a liquid crystal display comprising: a liquid crystal panel; a backlight unit including a back plate and an optical film set disposed between the back plate and the liquid crystal panel, and disposed between the back plate and the liquid crystal panel and surrounding a plastic frame outside the optical film set; a double-sided tape comprising a first surface coated with a first adhesive and connected to the liquid crystal panel through a first adhesive, and coated with a second adhesive and passed through the first a second surface to which the second adhesive is attached to the backsheet and the optical film set, respectively. Wherein, the adhesion strength of the first adhesive to the liquid crystal panel is lower than the adhesion strength of the second adhesive to the optical film set.

In one embodiment, the bonding substance in the first adhesive is different from the adhesive substance in the first adhesive, and the viscosity of the bonding substance in the first adhesive is lower than the viscosity of the bonding substance in the second adhesive. The concentration of the binding substance in an adhesive is lower than or equal to the concentration of the binding substance.

In one embodiment, the bonding material in the first and second adhesives is the same, but the concentration of the bonding material in the first adhesive is lower than the concentration of the bonding material in the second adhesive.

In one embodiment, the optical film set includes a diffusion film, a brightness enhancement film, a diffusion film, a light guide plate, and a reflective film which are sequentially disposed from the liquid crystal panel toward the back plate.

In one embodiment, the liquid crystal panel includes a polarizing film, a color filter substrate, a liquid crystal layer, an array substrate, a polarizer, a driving circuit, and a printed circuit board which are sequentially stacked.

In one embodiment, the first and second adhesives are all acrylic adhesives.

The present invention also provides a double-sided tape for a liquid crystal display, comprising a first surface coated with a first adhesive and connectable to a liquid crystal panel of the liquid crystal display through a first adhesive, and coated The second adhesive may be a second surface that is connected to the back sheet of the liquid crystal display and the optical film set by the second adhesive, respectively. Wherein, the adhesion strength of the first adhesive to the liquid crystal panel is lower than the adhesion strength of the second adhesive to the optical film set.

In one embodiment, the bonding substance in the first adhesive is different from the adhesive substance in the first adhesive, and the viscosity of the bonding substance in the first adhesive is lower than the viscosity of the bonding substance in the second adhesive. The concentration of the binding substance in the adhesive is lower than or equal to the concentration of the bonding substance.

In one embodiment, the bonding material in the first and second adhesives is the same, but the concentration of the bonding material in the first adhesive is lower than the concentration of the bonding material in the second adhesive.

In one embodiment, the first and second adhesives are all acrylic adhesives.

After the backlight unit is separated from the liquid crystal panel, the double-sided tape of the liquid crystal display of the present invention has to be separated from the liquid crystal panel and left on the optical film and the plastic frame so as not to break the position between the optical film groups in the optical film group. Relationship, to ensure that the reassembled LCD monitor can be used normally.

In addition, the liquid crystal display according to the present invention has a simple structure, convenient processing, easy assembly, safe use, and convenient implementation and popularization.

DRAWINGS

The invention will be described in more detail hereinafter based on the embodiments and with reference to the accompanying drawings. among them:

1 is a schematic structural view of a liquid crystal panel of the prior art.

2 is a schematic structural view of a liquid crystal display according to the present invention.

In the drawings, the same components are denoted by the same reference numerals. The drawings are not drawn to scale.

detailed description

The invention will now be further described with reference to the accompanying drawings.

Figure 2 shows a liquid crystal display 10 in accordance with the present invention. The liquid crystal display 10 can be applied to electronic products such as mobile phones and computers, and related mechanical devices, and transmits certain information to people through display contents, so that people can know the information in time.

As shown in FIG. 2, the liquid crystal display 10 includes a rectangular liquid crystal panel 2 and a frame type double-sided tape 3, and a backlight unit 5 connected to the liquid crystal panel 2 through a double-sided tape 3. The backlight unit 5 is capable of supplying a light source to the liquid crystal panel 2 to ensure that the liquid crystal panel 2 can clearly display a picture.

The liquid crystal panel 2 can be selected as a TFT-LCD liquid crystal panel (ie, a liquid crystal panel of a thin film transistor liquid crystal display), and includes a polarizing film 21 and a color filter substrate 22 which are sequentially arranged from the top to the bottom direction (ie, the A direction). The electrode substrate), the liquid crystal layer, the array substrate 23, the polarizer 24, the drive circuit, and the printed circuit board. The driving circuit, the liquid crystal layer, the color filter substrate 22, the array substrate 23, and the printed circuit board are all well-known to those skilled in the art, and are not described herein again.

The backlight unit 5 may include a back plate 51 and an optical film group 52 disposed between the back plate 51 and the liquid crystal panel 2, and between the back plate 51 and the liquid crystal panel 2 and surrounding the group of the optical film group 52. Plastic frame 53. The optical film group 52 includes a diffusion film 521, a brightness enhancement film 522, a diffusion film 523, a light guide plate 524, and a reflection film 525 which are sequentially distributed from the liquid crystal panel 2 toward the back plate 51 (ie, the A direction). The backlight unit 5 further includes a light source disposed between the light guide sheet 524 and the bezel 53. Wherein, the light source may be selected as an LED lamp capable of adjusting brightness to adjust the brightness of the liquid crystal display 10. In addition to this, the optical film set 52 has other forms of structure, such as a structure formed by adding or subtracting the corresponding film.

According to the invention, the double-sided tape 3 consists of a substrate and an adhesive. The substrate may be formed from paper, cloth or plastic film, and the adhesive may be an environmentally friendly adhesive such as acrylic (ie, acrylic and methacrylic). Wherein, the substrate has a first surface 3a and a second surface 3b opposite thereto. The adhesive includes a first adhesive coated on the first surface 3a, and a second adhesive coated on the second surface 3b. The first surface 3a of the double-sided tape 3 is connected to the liquid crystal panel 2 by a first adhesive, and the second surface 3b is connected to the diffusion film 521 of the backing plate 51 and the optical film group 52 by a second adhesive, respectively. . The liquid crystal panel 2 and the backlight unit 5 can be firmly fixed together by the double-sided tape 3.

In order to prevent the double-sided tape 3 from remaining on the liquid crystal panel 2 after the liquid crystal panel 2 is separated from the optical film group 52, the adhesion strength of the first adhesive to the liquid crystal panel 2 needs to be lower than that of the second adhesive to the optical film. The adhesion strength of group 52. Since the adhesion strength of the same second adhesive to the glass optical film set 52 is lower than that of the rubber plastic frame 53, and the adhesion strength of the first adhesive to the liquid crystal panel 2 is low. The adhesion strength of the second adhesive to the optical film set 52, so that the adhesion strength of the first adhesive to the liquid crystal panel 2 is lower than the adhesion strength of the second adhesive to the optical film set 52. It is lower than the adhesion strength of the second adhesive to the plastic frame 53. Wherein the adhesion strength is actually the adhesion per unit area, and the adhesion is equal to the adhesion strength multiplied by the contact area at the adhesion.

As shown in FIG. 2, when two outward force F3 and F4 are applied to the liquid crystal panel 2 and the backlight unit 5 on one side of the liquid crystal display 10, the adhesion strength of the first adhesive to the liquid crystal panel 2 is The adhesion strength of the second adhesive to the optical film group 52 is lower than that of the second adhesive to the plastic frame 53, so that the double-sided tape 3 has to be separated from the liquid crystal panel 2 and left in the optical The diaphragm group 52 and the plastic frame 53 can prevent the structure of the optical film group 52 from being damaged, and the liquid crystal display 10 after reassembly can be normally applied.

In order to achieve that the adhesion strength of the first adhesive to the liquid crystal panel 2 is lower than the adhesion strength of the second adhesive to the optical film set 52, two embodiments are provided below.

In the first embodiment, the bonding substance in the first adhesive is different from the adhesive substance in the first adhesive, and the viscosity of the bonding substance in the first adhesive is lower than the viscosity of the bonding substance in the second adhesive. At the same time, the concentration of the binding substance in the first adhesive is lower than or equal to the concentration of the bonding substance. In this way, the adhesion strength between the first surface 3a and the liquid crystal panel 2 can be effectively reduced, and the double-sided tape 3 can be smoothly separated from the liquid crystal panel 2, thereby remaining on the bezel 53 and the optical film group 52. Among them, the bonding substance is also called a binder, which is an essential component in the adhesive and acts as a bonding.

In the second embodiment, the first and second adhesives have the same bonding substance, but the first adhesive The concentration of the bonding substance inside is lower than the concentration of the bonding substance in the second adhesive. In this way, the adhesion strength between the first surface 3a and the liquid crystal panel 2 can be effectively reduced, and the double-sided tape 3 can be smoothly separated from the liquid crystal panel 2, thereby remaining on the bezel 53 and the optical film group 52.

In a preferred embodiment, the backing plate 51 includes a bottom portion 51a and a side portion 51b fixedly coupled to the edge of the bottom portion 51a. The side portion 51b surrounds the plastic frame 53 and functions as a positioning plastic frame 53, and can ensure that the plastic frame 53 is not easily deformed. In addition, the second surface 3b of the double-sided tape 3 may also be bonded to the top end of the side portion 51b to enhance the stability of the bezel 53 in the backlight unit 5.

After the backlight unit 5 is separated from the liquid crystal panel 2, the double-sided tape 3 of the liquid crystal display 10 according to the present invention has to be separated from the liquid crystal panel 2 and left on the optical film group 52 and the plastic frame 53, so that the optical film is not broken. The positional relationship between the sheets in the sheet group 52 ensures that the liquid crystal display 10 after reassembly can be used normally.

Although the present invention has been described with reference to the preferred embodiments thereof, various modifications may be made without departing from the scope of the invention. In particular, the technical features mentioned in the various embodiments can be combined in any manner as long as there is no structural conflict. The present invention is not limited to the specific embodiments disclosed herein, but includes all technical solutions falling within the scope of the claims.

Claims (12)

A liquid crystal display, comprising: LCD panel; a backlight unit comprising a back sheet and an optical film set disposed between the back sheet and the liquid crystal panel, and a plastic frame disposed between the back sheet and the liquid crystal panel and surrounding the optical film group; as well as a double-sided tape comprising a first surface coated with a first adhesive and connected to the liquid crystal panel by the first adhesive, and coated with a second adhesive and passing through the second a second surface to which the adhesive is respectively connected to the back sheet and the optical film set; Wherein the adhesion strength of the first adhesive to the liquid crystal panel is lower than the adhesion strength of the second adhesive to the optical film set. The liquid crystal display according to claim 1, wherein a bonding substance in the first adhesive is different from a bonding substance in the first adhesive, and a viscosity of the bonding substance in the first adhesive is lower than the second adhesive The viscosity of the bonding substance in the adhesive, while the concentration of the binding substance in the first adhesive is lower than or equal to the concentration of the bonding substance. The liquid crystal display according to claim 2, wherein the optical film group includes a diffusion film, a brightness enhancement film, a diffusion film, a light guide plate, and a reflection film which are sequentially disposed from the liquid crystal panel toward the back plate. The liquid crystal display according to claim 3, wherein the liquid crystal panel comprises a polarizing film, a color filter substrate, a liquid crystal layer, an array substrate, a polarizer, a driving circuit, and a printed circuit board which are sequentially stacked. The liquid crystal display according to claim 1, wherein the bonding substance in the first and second adhesives is the same, but the concentration of the bonding substance in the first adhesive is lower than the second The concentration of the binding substance in the adhesive. The liquid crystal display according to claim 5, wherein the optical film group includes a diffusion film, a brightness enhancement film, a diffusion film, a light guide plate, and a reflection film which are sequentially disposed from the liquid crystal panel toward the back plate. The liquid crystal display of claim 6, wherein the liquid crystal panel comprises a polarizing film, a color filter substrate, a liquid crystal layer, an array substrate, a polarizer, a driving circuit, and a printed circuit board which are sequentially stacked. The liquid crystal display of claim 7, wherein the first and second adhesives are all acrylic adhesive. A double-sided tape for a liquid crystal display, comprising: a first surface coated with a first adhesive and capable of being connected to a liquid crystal panel of the liquid crystal display through the first adhesive, and coating Up a second adhesive may be respectively connected to the second surface of the liquid crystal display back sheet and the optical film set by the second adhesive, wherein the first adhesive is opposite to the liquid crystal panel The adhesion strength is lower than the adhesion strength of the second adhesive to the optical film set. The double-sided tape according to claim 9, wherein a bonding substance in the first adhesive is different from a bonding substance in the first adhesive, and a viscosity of the bonding substance in the first adhesive is lower than the second The viscosity of the bonding substance in the adhesive while the concentration of the bonding substance in the first adhesive is lower than or equal to the concentration of the bonding substance. The double-sided tape according to claim 9, wherein the bonding substance in the first and second adhesives is the same, but the concentration of the bonding substance in the first adhesive is lower than the first The concentration of the binding substance in the second adhesive. The double-sided tape according to claim 11, wherein the first and second adhesives are all acrylic adhesive.

Images